Fiber Optic Cable Construction

A main purpose of a fiber optic cable is to protect the fiber core inside the cable that carries the light signal
transmission. The following diagram shows the construction of a fiber optic cable.

Core
The fiber core is made of silica glass and is the central part of the fiber optic cable that carries the light signal.
They are hair-thin in size and the diameter of the fiber core is typically 8 m for single mode fiber, and 50
m or 62.5 m for multi mode fiber.

Cladding
The cladding is also made of glass, and is the layer that surrounds the fiber core. Together, they form a single
solid fiber of glass that is used for the light transmission. The diameter of the cladding is typically 125 m.

Primary Coating After the cladding, there is the primary coating that is also known as the primary buffer. This layer provides
protection to the fiber core and cladding. They are made of plastic and only provide mechanical protection.
They do not interfere with the light transmission of the core and the cladding.

Strength Members
The next layer is strength members. They are strands of aramid yarn, or better known as Kevlar. They are
added to the fiber optic cable to prevent the breakage of the fiber glass during installation. When fiber is
pulled through a duct, the outer cover would stretch and the pulling load would be rested on the fiber. The
strength members prevent this as their material is designed to take the strain.

Cable Jacket
The last layer is the cable jacket, which are comprised of different materials depending on the choice of the
end user and the application in use. Like the primary coating, they serve only as a mechanical protection to
the fiber core and cladding inside. Common types of fiber optic cable jacket ratings are:

OFNP
OFNP (optical fiber, nonconductive, plenum) are used in plenum applications. They are used inside buildings in
plenum areas, the areas between a ceiling and the floor above it, where space is reserved for the circulation of air. They
have the highest rated fire retardant where it emits little smoke during combustion. The nonconductive element within
OFNP means they contain no electrically conductive components.

OFNR
OFNR (optical fiber, nonconductive, riser) are used in riser applications. These are spaces inside a building in pathways
that pass between floors, such as a vertical zone or space. They are engineered to prevent fire from spreading from
floors to floors within buildings.

LSZH
LSZH (low smoke zero halogen) cable jackets are composed of fire retardant materials that reduces the amount of
smoke emitted when combusted. A feature in LSZH is that they contain zero halogen during combustion. They have
been cited as an ideal cable jacket in high risk areas of fire or crowded public locations.

There are different reasons for light losses which may occur during transmission of light signal inside the fiber or
during the interconnection process of two fibers.

Cable Structure

There are two basic designs in terms of construction for fiber optic cables: loosetube and tightbuffered. Both cable
designs could be used both indoor and outdoor, but they are more popular within each setting. Loose tube cables are
used in many outside plant installations while tight buffered cables are used often inside buildings. Each type of cable
are beneficial in different applications, implying that there is no "one-cable-fit-all".

Loose-tube cables
In loosetube cables, color-coded plastic buffer tubes house and protect optical fibers, a gel filling compound impedes
water penetration. The main feature is that the fiber is available to be freely moved. This is beneficial as there is less
strain and allows fiber to expand and contract with respect to the changes in temperature. In addition, they have better
bending performances as the fiber inside can wander inside the loose tube cable. Finally, they are also beneficial during
installation where they can be stretched more without stressing the optical fiber.

Tight-buffered cables
In contrast to loose-tube cables, tightbuffered cables have the buffering material in direct contact with the fiber and
tightly wraps around the optical fiber. They provide a rugged cable structure for better mechanical protection of fibers
during handling and installation. The strength members or aramid yarn Kevlar are placed either after the outer cable
jacket or around each individual fiber optic jacket, often referred to subjackets.

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